The Quran does not blessProphet Ismail (Ishmael) in the sacrifice of the son of Prophet Ibrahim (Abraham). The Quran blesses ProphetIbrahim (Abraham) and Prophet Ishaq (Isaac) in the sacrifice of the son of Prophet Ibrahim (Abraham).

The Fast explanation, the Summery, the Easy to understand and the Advanced explanation of the sacrifice of the son of Ibrahim (Abraham, Ibraham, Ibraheem, Ebrahim, Avraham) in the Quran.

The Quran does not bless Hazrat Ismail (Ishmael) in the sacrifice of the son of Hazrat Ibrahim (Abraham). The Quran blesses Hazrat Ibrahim (Abraham) and Hazrat Ishaq (Isaac) in the sacrifice of the son of Hazrat Ibrahim (Abraham).

The Quran does not bless Hadhrat Ismail (Ishmael) in the sacrifice of the son of Hadhrat Ibrahim (Abraham). The Quran blesses Hadhrat Ibrahim (Abraham) and Hadhrat Ishaq (Isaac) in the sacrifice of the son of Hadhrat Ibrahim (Abraham).

20 May 2010.Jews in 2010 (1431 AH).Satin (Shaitan, as a lie against
God, Allah, Allaah) confused some Jews and Muslims to believe that the other is the Devil
(Shaitan) so that they shall both waste their time on Earth to fight Satin’s
(Shaitan’s) war against God (Allah, Allaah) instead of passing God’s (Allah’s, Allaah's) message
to all mankind.

(In the Jewish Torah, Taurat)God
(Allah, Allaah) said “He is not the son of a man”, (so how can he have a son)?See page 1 Somalia.

20 May 2010.Christians in 2010 (1431
AH). Satin (Shaitan, as a lie against
God, Allah, Allaah) confused some Christians to pray to Prophet Jesus (Prophet Isa,
Hazrat Isa, Hadhrat Isa who is a creation) instead of praying to God (Allah, Allaah, who created all the creations). See page 1 Somalia.

20 May
2010. Muslims in 2010 (1431 AH).Satin (Shaitan, as a lie against
God, Allah, Allaah) confused some Muslims to believe that Ishmael (Ismail) was the son
to be sacrificed by Abraham (Ibrahim) to trick them to speak against God
(Allah, Allaah) by accusing the holy books of God (Allah, Allaah) to be faulty when in fact the
Quran, the Torah (Taurat) and the Gospel (Injil) all agree that Isaac (Ishaq)
was the son sacrificed by Abraham (Ibrahim). See page 1 Somalia.

20 May 2010.God (Allah, Allaah) protects His Quran, His Torah
and His Gospel.

Ocean Radio Beacons, ocean radio research beacons, Meteorological ocean weather beacons, Meteorological radio beacons, radio beacon drift nets, driftnet buoy radio beacons, driftnet radio buoys, captured whale radio buoy or fishing buoy transmitters are dry cell battery operated 4 to 15 Watt radio transmitters using 1.600 MHz to 2.850 MHz and a 4 metre fibre glass antenna. The normal service range of these radio beacons is 100 km (60 miles) however those listening on these Medium Wave frequencies for unusual and interesting radio signals can hear such low power signals from thousands of miles away especially during sunset, nighttime and sunrise.

This sequence of Morse code identification and carrier are sent 3 times.10 May 2008 at 1215 UTC with signal strength 7.GA is over 200 km from Sydney as indicated by no daytime signal on 17 May 2009 at 0338 UTC.

1.764 MHz 1764 kHz 2AFCD Australia ocean radio beacon transmitting every 4 minutes the call sign 2AFCD followed by a carrier of 2-second duration. This sequence of Morse code identification and carrier are transmitted 3 times. 18 June 2009 at 2023 UTC with signal strength 1. 1.765 MHz 1765 kHz 2AFWX Australia ocean radio beacon transmitting every 5 minutes the call sign 2AFWX followed by a carrier of 2-second duration. This sequence of Morse code identification and carrier are transmitted 3 times. 18 June 2009 at 2019 UTC with signal strength 5. 1.765 MHz 1765 kHz OB282 ocean radio beacon transmitting every 3 minutes the call sign OB282 followed by a carrier of 1-second duration. This sequence of Morse code identification and carrier are transmitted 4 times. 18 June 2009 at 2014 UTC with signal strength 7.

This sequence of Morse code identification and carrier are sent 3 times.10 May 2009 at 1146 UTC with signal strength 9.2AEEF is within 300 km of Sydney as indicated by daytime reception on 18 May 2009 at 0338 UTC under signal strength 8 noise.

This sequence of Morse code identification and carrier are sent 3 times.10 May 2009 at 1157 UTC with signal strength 9 and fading. Possibly near maximum daytime radio propagation distance from Sydney as indicated by several extremely weak unidentified Morse code signals on 18 May 2009 at 0345 UTC.

This sequence of Morse code identification and carrier are sent 3 times.15 May 2009 at 1807 UTC with signal strength 8. Possibly near maximum daytime radio propagation distance from Sydney as indicated by several extremely weak unidentified Morse code signals on 18 May 2009 at 0345 UTC.

This sequence of Morse code identification and carrier are sent 3 times.17 May 2009 at 2010 UTC with signal strength 6.2AHAD is within 300 km of Sydney as indicated by daytime reception on 18 May 2009 at 0358 UTC of constant signal strength under the S8 noise level.

The sequence of Morse code and carrier are transmitted 3 times. 29 April 2009 at 0757 UTC with signal strength 5. 3TFA is over 200 km from Sydney as indicated by no daytime signal on 17 May 2009 at 0415 UTC.

The sequence of Morse code and carrier are transmitted 3 times. 30 April 2009 at 0757 UTC with signal strength 5. 3ADST is within 300 km of Sydney as indicated by daytime reception on 18 May 2009 at 0430 UTC under S8 noise.

1.8185 MHz 1818.5 kHz SATTRAK DATA LTD (A registered company) Tinakori Hill, North Island, New Zealand. This is an Aeronautical Non Directional Beacon NDB for the Wellington area of New Zealand. SATTRAK DATA LTD uses a data emission called 500HF1D which is a 500Hz emission bandwidth. SATTRAK DATA LTD is licensed to use 1.818250 MHz to 1.818750 MHz with a centre frequency of 1.818500 MHz at a power of 100 Watts from a Transworld TW7000 transmitter. It was earlier reported as 1.818.6 MHz 1818.6 kHz 2 alternating carrier signals each second. One carrier on 1.818.5 MHz 1818.5 kHz the other carrier on 1.818.7 MHz 1818.7 kHz. 23 May 2009 at 1255 UTC still continuing at 1400 UTC with signal strength 5. SATTRAK DATA LTD is heard daily in Sydney. On 7 August 2009 at 1254 UTC with signal strength 9 plus 5dB. (Not 1.818 MHz 1818 kHz 2 alternating carriers or 1.819 MHz 1819 kHz 2 alternating carriers).

The sequence of Morse code and carrier are transmitted 3 times.15 May 2009 at 2007 UTC with signal strength 5.2AFQR is over 200 km from Sydney as indicated by no daytime signal on 18 May 2009 at 0435 UTC.

1.821.5 MHz 1821.5 kHz VK3AMD Amateur Radio Station, Hughesdale, Victoria, Australia. Allan Doble (ham radio call sign VK3AMD) was using Morse code sending “CQ three times (meaning: this is an invitation to anyone who would like to have a conversation with me) de VK3AMD K” on 17 May 2009 at 2010 UTC signal strength 9 plus 30dB and at 2053 UTC signal strength 9 plus 20dB.

The sequence of Morse code and carrier were transmitted 3 times. 30 April 2009 at 0755 UTC with signal strength 5. Sydney daylight reception of 2AHAL on 17 May 2009 at 0637 UTC was signal strength 4 estimated.

2AFQR is over 200 km from Sydney as indicated by no daytime signal on 18 May 2009 at 0442 UTC.

1.823 MHz 1823 kHz K9DX Amateur Radio Station, Barrington, Illinois, USA. John was heard calling CQ (general call inviting anyone to have a two way conversation on radio) using Morse code (CW) on 10 May 2009 at 0953 UTC with signal strength 7.

I sent John this email “I heard you this evening in Sydney, Australia. I am using a 160m half wave dipole antenna in my home 6 km north of the Sydney harbour bridge.

Here is a reception report of your transmission.

K9DX, amateur radio station in the USA replied to my Email reception report on 12 May 2009:

K9DX said "I was running a power of 1.5 kW (1500 Watts) to a 9 element vertical steerable antenna array pointed west (away from Australia). If I had switched the antenna towards your direction then the signal would have been a couple signal strength units higher.

12 May 2009 reply sent by Sam Voron VK2BVS in Australia:

Your antenna is fantastic.

I would never have imagined that such a system were behind the CQ call that I heard.

Well done!!!

I put the photo of your antenna (below) on this web page so that others can go to your web page and see more.

13 May 2009 reply sent by John Battin K9DX in the USA:

Beautiful, Thanks.

In Australia John had a strong signal from the USA on the 1.8 MHz (160 metre band).

Here is a photo of the antenna used by John when I heard his CQ (general call inviting anyone who would like to have a conversation) using Morse code.

I love John's antenna and I say that every ham radio operator should have one!

Aircraft view of crop circles made by amateur radio operators to remove crops and install antennas. These are the 9 antennas used by John Battin (Ham radio call sign K9DX) on a wavelength of 160 metres to acheive world wide communications from the USA using Morse code in 2009.

The sequence of Morse code and carrier are transmitted 3 times. 13 May 2009 at 0528 UTC with signal strength 5. 2AFRS is within 300 km of Sydney as indicated by daytime reception on 18 May 2009 at 0449 UTC under S8 noise.

1.824 MHz 1824 kHz MQ5ocean radio beacon transmitting every 5 minutes in Morse code the call sign MQ5 followed by three 2-second carriers.

The sequence of Morse code and carrier are transmitted 3 times. 1 June 2009 at 1126 UTC with signal strength 3 to 5.

The sequence of Morse code and carrier are transmitted 3 times.14 June 2009 at 2213 UTC with signal strength 3.

1.910 MHz 1910 kHz SK5 ocean radio beacon transmitting once every 5 minutes in Morse code the call sign SK5 followed by three 3-second carriers. 10 May 2009 at 0958 UTC with signal strength 9. No Sydney sunset reception of SK5 on 17 May 2009 at 0705 UTC.

1.957 MHz 1957 kHz 2ABBC Australia ocean radio beacon transmitting once every 4 minutes in Morse code the call sign 2ABBC followed by three 2-second carriers.

The sequence of Morse code and carrier are transmitted 3 times.3 June 2009 at 1441 UTC with signal strength 8.

2.000 MHz 2000 kHz KQ8 ocean radio beacon transmitting once every 5 minutes in Morse code the call sign KQ8 followed by three 3-second carriers. 10 May 2009 at 1232 UTC with signal strength 7. No Sydney sunset reception of KQ8 on 17 May 2009 at 0720 UTC.

2.032 MHz 2032 kHz TR2 ocean radio beacon transmitting once every 5 minutes in Morse code the call sign TR2 followed by three 3-second carriers. 10 May 2009 at 1328 UTC with signal strength 0 to 2. When I first heard this station it was good but with changing radio conditions it took 1 more hour until I was able to identify the call sign.

You can enjoy working on the Internet while you listen to the radio to identify such weak signals. No Sydney sunset reception of TR2 on 17 May 2009 at 0724 UTC.

2.164.5 MHz 2164.5 kHz D9ocean radio beacon transmitting every 3 minutes in Morse code the call sign D9 followed by a 2-second carrier.

18 May 2009 at 2117 UTC with signal strength 5 to 7 and at 0643 UTC signal strength 3 to 6.

2.514 MHz 2514 kHz CG8 (CGN, CGN8, CGGN) ocean radio beacon transmitting every 5 minutes in Morse code the call sign CG8 followed by three 3-second carriers. 10 May 2008 at 1356 UTC with signal strength 7. Sometimes the Morse identification would be faulty and instead of sending CG8 it sent CGN, CGN8 or CGGN. No Sydney early evening reception of CG8 on 17 May 2009 at 0744 UTC.

2.578.3 MHz 2578.3 kHz CN1ocean radio beacon transmitting every 4 minutes in Morse code the call sign CN1 followed by three 2-second carriers.

The sequence of Morse code and carrier are transmitted 3 times.

18 May 2009 at 2124 UTC signal strength 2.

3NSH is over 200 km from Sydney as indicated by no daytime signal on 18 May 2009 at 0650 UTC.

(Not 2578 kHz CN1 or 2578.5 kHz CN1 or 2579 kHz CN1).

2.844 MHz 2844 kHz KM0 Ocean radio beacon transmitting every 5 minutes in Morse code “KM0” three times. 15 May 2009 at 1955 UTC with signal strength 6.Sydney early evening reception of KM0 on 17 May 2009 at 0754 UTC with a weak signal.

No Sydney afternoon reception of KM0 on 18 May 2009 at 0515 UTC.

Students at the Gothenburg Initiative mechanical training school in Galkacyo, Somalia October 2007.

Introduction to Morse code.

When radio was invented over 100 years ago, Morse code was the only way to communicate.

Voice transmission was invented later.

In 2009 who is using Morse code?

Amateur radio operators (Ham radio operators) use Morse code as a fun way to communicate.

Hams (Helping All mankind and woMankind) radio operators get to know other individual radio operators by the sound of their Morse code in the same way that we recognise friends by the sound of their voice.

People who love sending SMS mobile phone messages have the same enjoyment that Radio Hams feel when they communicate with their radio friends using Morse code.

One difference between SMS phone calls and Morse code radio conversations is that SMS mobile phone users pay for the SMS calls whereas local and worldwide ham radio Morse code (or voice or data) conversations are unlimited and free.

Each SMS phone call is charged a fee by commercial private business.

Morse code (and voice or data) on amateur radio is a worldwide humanitarian, scientific and experimental non-commercial friendship service operated by individual citizens who use the free radio airwaves to talk with ham radio enthusiasts in every country.

Ham radio conversations are free because they operate under the International regulations of the United Nations International Telecommunications Union to promote free worldwide friendship, disaster emergency communications assistance, scientific telecommunications research and technical training as well as in promoting human respect, education and worldwide understanding.

Another reason why local and worldwide Amateur radio calls are free is because ham radio operators do not operate their radio station for commercial or business purposes.

Ham radios (amateur radios) are used only to promote free worldwide friendship, human respect, education and worldwide understanding as well as to assist in emergency communications both locally and in other countries during disasters and in technical education and scientific research.

In 2009 Morse code is used by most people who have a mobile phone.

When an SMS message arrives you hear (dit dit dit) (daaa daaa) (dit dit dit) which is the International Morse code meaning SMS.

This page is a survey of all Morse code transmissions received in Sydney, Australia between 1.6 and 3 MHz (1600 to 3000 kHz).

This Morse code survey will give an idea of who (apart from the amateur ham radio operators and the 900 MHz mobile radio SMS phone users as discussed above) is also using Morse code in the 21st century.

Surprisingly Morse code is found to be widely used in todays modern world doing its job silently and 24 hours a day.

Morse code in 2009 is used everyday on land, sea, air and space from helping aircraft pilots so that you and me arrive at the airport safely through to scientific research work and more.

The Gothenburg Initiative mechanical training school in Galkaacyo, Somalia October 2007.

CW Continuous Wave (radio wave) switched on and off is Morse code on radio.

A long one second signal is the Morse codedash and on radio sounds like Daaa.

A short eighth of a second signal is the Morse codedot and on radio sounds like Dit.

MCW is a modulated CW signal (made of a radio frequency carrier signal with an audio signal) and is Morse code that can be heard on an AM receiver.

CW is an unmodulated CW signal (made of a radio frequency carrier with no audio signal) and is Morse code that can be heard on any receiver that has a control to select SSB (Single Side Band) or LSB (Lower Side Band) or USB (Upper Side Band) or CW (Continuous Wave) or BFO (Beat Frequency Oscillator).

Before a Morse code radio call sign you often hear the letters “de” meaning “This is”

d (Daaa dit dit)

e (Dit)

Students take an engine apart at the Gothenburg Initiative mechanical training school in Gaalkaacyo, Somalia October 2007.